// $ANTLR 3.4 C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g 2013-02-27 11:32:12

  package practicaspl.doceuno;


import org.antlr.runtime.*;
import java.util.Stack;
import java.util.List;
import java.util.ArrayList;

@SuppressWarnings({"all", "warnings", "unchecked"})
public class AnalisisLexer extends Lexer {
    public static final int EOF=-1;
    public static final int BLANCO=4;
    public static final int CARACTER=5;
    public static final int COLON=6;
    public static final int COMA=7;
    public static final int COMENTARIO=8;
    public static final int C_CORCHETE=9;
    public static final int C_PAR=10;
    public static final int DIGITO=11;
    public static final int DIV=12;
    public static final int IDENT=13;
    public static final int IGUAL=14;
    public static final int MAS=15;
    public static final int MAYOR=16;
    public static final int MENOR=17;
    public static final int MENOS=18;
    public static final int MULT=19;
    public static final int NUEVA_LINEA=20;
    public static final int NUMERO=21;
    public static final int O_CORCHETE=22;
    public static final int O_PAR=23;
    public static final int REAL=24;
    public static final int SEMICOLON=25;
    public static final int STRING=26;
    public static final int TABULADOR=27;

      private ArrayList<RecognitionException> errors = new ArrayList<RecognitionException>();
      public ArrayList<RecognitionException> getErrors() {
        return errors;
      }
      @Override
      public void reportError (RecognitionException e) {
         String msg = getErrorMessage(e, getTokenNames());
         System.err.println(msg);
         errors.add(e);
      }


    // delegates
    // delegators
    public Lexer[] getDelegates() {
        return new Lexer[] {};
    }

    public AnalisisLexer() {} 
    public AnalisisLexer(CharStream input) {
        this(input, new RecognizerSharedState());
    }
    public AnalisisLexer(CharStream input, RecognizerSharedState state) {
        super(input,state);
    }
    public String getGrammarFileName() { return "C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g"; }

    // $ANTLR start "SEMICOLON"
    public final void mSEMICOLON() throws RecognitionException {
        try {
            int _type = SEMICOLON;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:26:11: ( ';' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:26:13: ';'
            {
            match(';'); 

            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "SEMICOLON"

    // $ANTLR start "COLON"
    public final void mCOLON() throws RecognitionException {
        try {
            int _type = COLON;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:27:7: ( '.' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:27:9: '.'
            {
            match('.'); 

            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "COLON"

    // $ANTLR start "COMA"
    public final void mCOMA() throws RecognitionException {
        try {
            int _type = COMA;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:28:6: ( ',' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:28:8: ','
            {
            match(','); 

            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "COMA"

    // $ANTLR start "MAS"
    public final void mMAS() throws RecognitionException {
        try {
            int _type = MAS;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:30:5: ( '+' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:30:7: '+'
            {
            match('+'); 

            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "MAS"

    // $ANTLR start "MENOS"
    public final void mMENOS() throws RecognitionException {
        try {
            int _type = MENOS;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:31:7: ( '-' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:31:9: '-'
            {
            match('-'); 

            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "MENOS"

    // $ANTLR start "MULT"
    public final void mMULT() throws RecognitionException {
        try {
            int _type = MULT;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:32:6: ( '*' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:32:9: '*'
            {
            match('*'); 

            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "MULT"

    // $ANTLR start "DIV"
    public final void mDIV() throws RecognitionException {
        try {
            int _type = DIV;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:33:5: ( '/' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:33:7: '/'
            {
            match('/'); 

            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "DIV"

    // $ANTLR start "O_PAR"
    public final void mO_PAR() throws RecognitionException {
        try {
            int _type = O_PAR;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:35:7: ( '(' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:35:9: '('
            {
            match('('); 

            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "O_PAR"

    // $ANTLR start "C_PAR"
    public final void mC_PAR() throws RecognitionException {
        try {
            int _type = C_PAR;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:36:6: ( ')' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:36:8: ')'
            {
            match(')'); 

            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "C_PAR"

    // $ANTLR start "O_CORCHETE"
    public final void mO_CORCHETE() throws RecognitionException {
        try {
            int _type = O_CORCHETE;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:38:11: ( '[' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:38:13: '['
            {
            match('['); 

            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "O_CORCHETE"

    // $ANTLR start "C_CORCHETE"
    public final void mC_CORCHETE() throws RecognitionException {
        try {
            int _type = C_CORCHETE;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:39:11: ( ']' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:39:13: ']'
            {
            match(']'); 

            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "C_CORCHETE"

    // $ANTLR start "MENOR"
    public final void mMENOR() throws RecognitionException {
        try {
            int _type = MENOR;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:41:7: ( '<' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:41:9: '<'
            {
            match('<'); 

            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "MENOR"

    // $ANTLR start "MAYOR"
    public final void mMAYOR() throws RecognitionException {
        try {
            int _type = MAYOR;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:42:7: ( '>' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:42:9: '>'
            {
            match('>'); 

            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "MAYOR"

    // $ANTLR start "IGUAL"
    public final void mIGUAL() throws RecognitionException {
        try {
            int _type = IGUAL;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:43:7: ( '=' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:43:9: '='
            {
            match('='); 

            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "IGUAL"

    // $ANTLR start "NUMERO"
    public final void mNUMERO() throws RecognitionException {
        try {
            int _type = NUMERO;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:45:8: ( ( DIGITO )* )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:45:10: ( DIGITO )*
            {
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:45:10: ( DIGITO )*
            loop1:
            do {
                int alt1=2;
                int LA1_0 = input.LA(1);

                if ( ((LA1_0 >= '0' && LA1_0 <= '9')) ) {
                    alt1=1;
                }


                switch (alt1) {
            	case 1 :
            	    // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:
            	    {
            	    if ( (input.LA(1) >= '0' && input.LA(1) <= '9') ) {
            	        input.consume();
            	    }
            	    else {
            	        MismatchedSetException mse = new MismatchedSetException(null,input);
            	        recover(mse);
            	        throw mse;
            	    }


            	    }
            	    break;

            	default :
            	    break loop1;
                }
            } while (true);


            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "NUMERO"

    // $ANTLR start "REAL"
    public final void mREAL() throws RecognitionException {
        try {
            int _type = REAL;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:46:6: ( NUMERO COLON NUMERO )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:46:8: NUMERO COLON NUMERO
            {
            mNUMERO(); 


            mCOLON(); 


            mNUMERO(); 


            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "REAL"

    // $ANTLR start "DIGITO"
    public final void mDIGITO() throws RecognitionException {
        try {
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:48:17: ( '0' .. '9' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:
            {
            if ( (input.LA(1) >= '0' && input.LA(1) <= '9') ) {
                input.consume();
            }
            else {
                MismatchedSetException mse = new MismatchedSetException(null,input);
                recover(mse);
                throw mse;
            }


            }


        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "DIGITO"

    // $ANTLR start "IDENT"
    public final void mIDENT() throws RecognitionException {
        try {
            int _type = IDENT;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:50:7: ( CARACTER ( CARACTER | DIGITO )* )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:50:9: CARACTER ( CARACTER | DIGITO )*
            {
            mCARACTER(); 


            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:50:18: ( CARACTER | DIGITO )*
            loop2:
            do {
                int alt2=2;
                int LA2_0 = input.LA(1);

                if ( ((LA2_0 >= '0' && LA2_0 <= '9')||(LA2_0 >= 'A' && LA2_0 <= 'Z')||(LA2_0 >= 'a' && LA2_0 <= 'z')) ) {
                    alt2=1;
                }


                switch (alt2) {
            	case 1 :
            	    // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:
            	    {
            	    if ( (input.LA(1) >= '0' && input.LA(1) <= '9')||(input.LA(1) >= 'A' && input.LA(1) <= 'Z')||(input.LA(1) >= 'a' && input.LA(1) <= 'z') ) {
            	        input.consume();
            	    }
            	    else {
            	        MismatchedSetException mse = new MismatchedSetException(null,input);
            	        recover(mse);
            	        throw mse;
            	    }


            	    }
            	    break;

            	default :
            	    break loop2;
                }
            } while (true);


            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "IDENT"

    // $ANTLR start "CARACTER"
    public final void mCARACTER() throws RecognitionException {
        try {
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:51:19: ( 'a' .. 'z' | 'A' .. 'Z' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:
            {
            if ( (input.LA(1) >= 'A' && input.LA(1) <= 'Z')||(input.LA(1) >= 'a' && input.LA(1) <= 'z') ) {
                input.consume();
            }
            else {
                MismatchedSetException mse = new MismatchedSetException(null,input);
                recover(mse);
                throw mse;
            }


            }


        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "CARACTER"

    // $ANTLR start "NUEVA_LINEA"
    public final void mNUEVA_LINEA() throws RecognitionException {
        try {
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:53:21: ( '\\r\\n' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:53:23: '\\r\\n'
            {
            match("\r\n"); 



            }


        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "NUEVA_LINEA"

    // $ANTLR start "STRING"
    public final void mSTRING() throws RecognitionException {
        try {
            int _type = STRING;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:54:8: ( '\"' ( options {greedy=false; } : . )* '\"' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:54:9: '\"' ( options {greedy=false; } : . )* '\"'
            {
            match('\"'); 

            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:54:12: ( options {greedy=false; } : . )*
            loop3:
            do {
                int alt3=2;
                int LA3_0 = input.LA(1);

                if ( (LA3_0=='\"') ) {
                    alt3=2;
                }
                else if ( ((LA3_0 >= '\u0000' && LA3_0 <= '!')||(LA3_0 >= '#' && LA3_0 <= '\uFFFF')) ) {
                    alt3=1;
                }


                switch (alt3) {
            	case 1 :
            	    // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:54:38: .
            	    {
            	    matchAny(); 

            	    }
            	    break;

            	default :
            	    break loop3;
                }
            } while (true);


            match('\"'); 

            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "STRING"

    // $ANTLR start "TABULADOR"
    public final void mTABULADOR() throws RecognitionException {
        try {
            int _type = TABULADOR;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:55:10: ( '\\t' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:55:12: '\\t'
            {
            match('\t'); 

            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "TABULADOR"

    // $ANTLR start "BLANCO"
    public final void mBLANCO() throws RecognitionException {
        try {
            int _type = BLANCO;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:56:7: ( ( ' ' | TABULADOR | NUEVA_LINEA ) )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:56:9: ( ' ' | TABULADOR | NUEVA_LINEA )
            {
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:56:9: ( ' ' | TABULADOR | NUEVA_LINEA )
            int alt4=3;
            switch ( input.LA(1) ) {
            case ' ':
                {
                alt4=1;
                }
                break;
            case '\t':
                {
                alt4=2;
                }
                break;
            case '\r':
                {
                alt4=3;
                }
                break;
            default:
                NoViableAltException nvae =
                    new NoViableAltException("", 4, 0, input);

                throw nvae;

            }

            switch (alt4) {
                case 1 :
                    // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:56:10: ' '
                    {
                    match(' '); 

                    }
                    break;
                case 2 :
                    // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:56:14: TABULADOR
                    {
                    mTABULADOR(); 


                    }
                    break;
                case 3 :
                    // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:56:24: NUEVA_LINEA
                    {
                    mNUEVA_LINEA(); 


                    }
                    break;

            }


            skip();

            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "BLANCO"

    // $ANTLR start "COMENTARIO"
    public final void mCOMENTARIO() throws RecognitionException {
        try {
            int _type = COMENTARIO;
            int _channel = DEFAULT_TOKEN_CHANNEL;
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:58:12: ( ( '/*' ( options {greedy=false; } : . )* '*/' ) )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:58:14: ( '/*' ( options {greedy=false; } : . )* '*/' )
            {
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:58:14: ( '/*' ( options {greedy=false; } : . )* '*/' )
            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:58:15: '/*' ( options {greedy=false; } : . )* '*/'
            {
            match("/*"); 



            // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:58:20: ( options {greedy=false; } : . )*
            loop5:
            do {
                int alt5=2;
                int LA5_0 = input.LA(1);

                if ( (LA5_0=='*') ) {
                    int LA5_1 = input.LA(2);

                    if ( (LA5_1=='/') ) {
                        alt5=2;
                    }
                    else if ( ((LA5_1 >= '\u0000' && LA5_1 <= '.')||(LA5_1 >= '0' && LA5_1 <= '\uFFFF')) ) {
                        alt5=1;
                    }


                }
                else if ( ((LA5_0 >= '\u0000' && LA5_0 <= ')')||(LA5_0 >= '+' && LA5_0 <= '\uFFFF')) ) {
                    alt5=1;
                }


                switch (alt5) {
            	case 1 :
            	    // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:58:48: .
            	    {
            	    matchAny(); 

            	    }
            	    break;

            	default :
            	    break loop5;
                }
            } while (true);


            match("*/"); 



            }


             _channel=HIDDEN; 

            }

            state.type = _type;
            state.channel = _channel;
        }
        finally {
        	// do for sure before leaving
        }
    }
    // $ANTLR end "COMENTARIO"

    public void mTokens() throws RecognitionException {
        // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:8: ( SEMICOLON | COLON | COMA | MAS | MENOS | MULT | DIV | O_PAR | C_PAR | O_CORCHETE | C_CORCHETE | MENOR | MAYOR | IGUAL | NUMERO | REAL | IDENT | STRING | TABULADOR | BLANCO | COMENTARIO )
        int alt6=21;
        alt6 = dfa6.predict(input);
        switch (alt6) {
            case 1 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:10: SEMICOLON
                {
                mSEMICOLON(); 


                }
                break;
            case 2 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:20: COLON
                {
                mCOLON(); 


                }
                break;
            case 3 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:26: COMA
                {
                mCOMA(); 


                }
                break;
            case 4 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:31: MAS
                {
                mMAS(); 


                }
                break;
            case 5 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:35: MENOS
                {
                mMENOS(); 


                }
                break;
            case 6 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:41: MULT
                {
                mMULT(); 


                }
                break;
            case 7 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:46: DIV
                {
                mDIV(); 


                }
                break;
            case 8 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:50: O_PAR
                {
                mO_PAR(); 


                }
                break;
            case 9 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:56: C_PAR
                {
                mC_PAR(); 


                }
                break;
            case 10 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:62: O_CORCHETE
                {
                mO_CORCHETE(); 


                }
                break;
            case 11 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:73: C_CORCHETE
                {
                mC_CORCHETE(); 


                }
                break;
            case 12 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:84: MENOR
                {
                mMENOR(); 


                }
                break;
            case 13 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:90: MAYOR
                {
                mMAYOR(); 


                }
                break;
            case 14 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:96: IGUAL
                {
                mIGUAL(); 


                }
                break;
            case 15 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:102: NUMERO
                {
                mNUMERO(); 


                }
                break;
            case 16 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:109: REAL
                {
                mREAL(); 


                }
                break;
            case 17 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:114: IDENT
                {
                mIDENT(); 


                }
                break;
            case 18 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:120: STRING
                {
                mSTRING(); 


                }
                break;
            case 19 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:127: TABULADOR
                {
                mTABULADOR(); 


                }
                break;
            case 20 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:137: BLANCO
                {
                mBLANCO(); 


                }
                break;
            case 21 :
                // C:\\Users\\Acer\\workspace\\doceuno\\src\\practicaspl\\doceuno\\AnalisisLexer.g:1:144: COMENTARIO
                {
                mCOMENTARIO(); 


                }
                break;

        }

    }


    protected DFA6 dfa6 = new DFA6(this);
    static final String DFA6_eotS =
        "\1\20\1\uffff\1\25\4\uffff\1\30\7\uffff\1\20\12\uffff";
    static final String DFA6_eofS =
        "\32\uffff";
    static final String DFA6_minS =
        "\1\11\1\uffff\1\60\4\uffff\1\52\7\uffff\1\56\12\uffff";
    static final String DFA6_maxS =
        "\1\172\1\uffff\1\71\4\uffff\1\52\7\uffff\1\71\12\uffff";
    static final String DFA6_acceptS =
        "\1\uffff\1\1\1\uffff\1\3\1\4\1\5\1\6\1\uffff\1\10\1\11\1\12\1\13"+
        "\1\14\1\15\1\16\1\uffff\1\17\1\21\1\22\1\23\1\24\1\2\1\20\1\25\1"+
        "\7\1\23";
    static final String DFA6_specialS =
        "\32\uffff}>";
    static final String[] DFA6_transitionS = {
            "\1\23\3\uffff\1\24\22\uffff\1\24\1\uffff\1\22\5\uffff\1\10\1"+
            "\11\1\6\1\4\1\3\1\5\1\2\1\7\12\17\1\uffff\1\1\1\14\1\16\1\15"+
            "\2\uffff\32\21\1\12\1\uffff\1\13\3\uffff\32\21",
            "",
            "\12\26",
            "",
            "",
            "",
            "",
            "\1\27",
            "",
            "",
            "",
            "",
            "",
            "",
            "",
            "\1\26\1\uffff\12\17",
            "",
            "",
            "",
            "",
            "",
            "",
            "",
            "",
            "",
            ""
    };

    static final short[] DFA6_eot = DFA.unpackEncodedString(DFA6_eotS);
    static final short[] DFA6_eof = DFA.unpackEncodedString(DFA6_eofS);
    static final char[] DFA6_min = DFA.unpackEncodedStringToUnsignedChars(DFA6_minS);
    static final char[] DFA6_max = DFA.unpackEncodedStringToUnsignedChars(DFA6_maxS);
    static final short[] DFA6_accept = DFA.unpackEncodedString(DFA6_acceptS);
    static final short[] DFA6_special = DFA.unpackEncodedString(DFA6_specialS);
    static final short[][] DFA6_transition;

    static {
        int numStates = DFA6_transitionS.length;
        DFA6_transition = new short[numStates][];
        for (int i=0; i<numStates; i++) {
            DFA6_transition[i] = DFA.unpackEncodedString(DFA6_transitionS[i]);
        }
    }

    class DFA6 extends DFA {

        public DFA6(BaseRecognizer recognizer) {
            this.recognizer = recognizer;
            this.decisionNumber = 6;
            this.eot = DFA6_eot;
            this.eof = DFA6_eof;
            this.min = DFA6_min;
            this.max = DFA6_max;
            this.accept = DFA6_accept;
            this.special = DFA6_special;
            this.transition = DFA6_transition;
        }
        public String getDescription() {
            return "1:1: Tokens : ( SEMICOLON | COLON | COMA | MAS | MENOS | MULT | DIV | O_PAR | C_PAR | O_CORCHETE | C_CORCHETE | MENOR | MAYOR | IGUAL | NUMERO | REAL | IDENT | STRING | TABULADOR | BLANCO | COMENTARIO );";
        }
    }
 

}